Important Announcements:

Utilization Of Electromagnetic Acoustic Transducers In Down hole Cement Evaluation


Speaker: Doug Patterson
Date: Sept. 8
Location: 
Repsol - 2455 Technology Forest Blvd The Woodlands, TX 77381
Time:11:30am-12:20 pm.  
Cutoff Date: Sep 7 2015.  
Lunch is included in the $25 registration fee. 

Title:
Utilization of electromagnetic acoustic transducers in downhole cement evaluation.


The importance of cement evaluation has steadily increased as the oil and gas industry strives to ensure and verify zonal isolation. Evaluation must address a broad spectrum of downhole conditions that include various casing thicknesses, mud weights, and cement types. The most-challenging condition occurs with lightweight (low-density) cements, where the standard cement bond systems have virtually the same response in free and cemented pipe. In these conditions, cement evaluation is extremely problematic and found in 30% of new well completions. To address the industry challenge, a new sensor and system has been developed for use downhole. 
 

The new tool incorporates the use of Electro-Magnetic Acoustic Transducers (EMATs) to generate and measure directly in the casing guided acoustic waves propagating along the casing circumference. EMATs consist of an arrangement of coils and magnets in close proximity to a conductive casing. The casing then becomes a final part of the transducer system. The acoustic excitation is achieved by driving currents through the coils, which creates eddy currents in the casing. These eddy currents, in the presence of the constant magnetic field, create the Lorenz forces that generate the acoustic waves. The EMATs are then utilized to measure the induced waves. This system generates and measures the signals directly in the casing, eliminating any need for fluid coupling or physical contact and enabling operation in all fluid and gas environments. By varying the magnetic field and coil structure, different acoustic modes may be created and measured. The most valuable of the guided modes are the horizontal shear or SH waves, which cannot be generated by conventional transducers. They propagate along the casing with their particle displacement, which is perpendicular to the wave propagation and parallel to the casing surface. These SH waves respond directly to the shear modulus of the material that is directly coupled on the backside of the casing, enabling direct detection of a solid coupled to the casing.  The Lamb or flexural modes are other guided waves that can be generated by the EMATs. These modes can be incorporated with the SH modes for the detection of a micro-annulus condition without the need for multiple passes and pressure applied to the casing. These sensors are incorporated into a pad system in a coplanar configuration, enabling azimuthally sectored compensated attenuation measurements for the varying wave types. In this presentation, we will review the theoretical background, physics, and modeling of these new EMATs as well as the various guided wave modes they can generate. We will then review the additional lab measurements and test well data that demonstrate the capability of this new approach for cement evaluation. These results clearly validate the new system’s ability to address cement evaluation in the broad spectrum of downhole environments. 


Biography:-
D
oug Patterson is the Acoustic Research Director and a Senior Technical Advisor for Baker Hughes, where he focuses on development of wireline and LWD devices along with interpretation software. Doug received his BSME from Memphis University in 1978, graduating magna cum laude. Over his career he has held positions in operations, sales, technical marketing, and technology development. Since 1992 Doug has focused extensively on the development of downhole acoustic equipment, processing software, and interpretation methods. His latest efforts include the use of EMATs for cement evaluation along with Deep Shear Wave Imaging to image structures away from the borehole through the use of shear body waves generated by a dipole source.  In addition, he has authored or co-authored more than 50 papers and 20 patents. He is a member of the SPE, SPWLA, ASME, Tau Beta Pi and was an SPWLA Distinguished Speaker for 2011-2012.   


NOTE:- PLEASE REGISTER FIRST AND THEN CLICK ON BUY NOW BUTTON. WEBSITE REGISTRATION IS COMPULSORY FOR THIS EVENT.


       

 
 
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